KR100302801B1 - Device and method for detecting misfire of automobile - Google Patents

Abstract

PURPOSE: A device and method for detecting misfire of an automobile is provided to stably maintain the operation of an engine by compensating the ignition moment of a cylinder in which the firing was occurred after detecting that firing is occurred in each cylinder so that stabilizing the discharge of the exhaust gas. CONSTITUTION: A device for detecting misfire of an automobile comprises a pressure detecting unit(10) for detecting pressure change of an exhaust gas, a noise removing unit(20) for filtering a signal of the detected pressure change in a prescribed range, RPM detecting unit(40) for detecting an information of the engine RPM, a control unit(30) for judging that the information of the engine RPM satisfies the misfire detecting condition, if so, detecting the misfire in each cylinder from the detected pressure information of the exhaust gas, and ignition unit(50) for compensating the ignition moment of the cylinder in which misfire occurs according to the control of the control unit.

Description

Misfire detection method of car

The present invention relates to the detection of misfires of automobiles, and more particularly, to detect cylinders in which misfires occur through exhaust gas pressure detection, and to self-diagnose codes, and to improve the performance of the engine by suppressing the occurrence of misfires by correcting the ignition timing. The present invention relates to a misfire detection apparatus and method for a vehicle.

In the case of poor spark flame propagation, abnormal compression ratio, or unstable ignition timing in a car, misfire occurs, and when misfire occurs, severe vibration is caused by abnormal operation of the engine and at the same time, the engine output is reduced. Generates.

Therefore, in the automobile, the engine operation is maintained by detecting misfire and thereby correcting the ignition timing and adjusting the compression ratio.

However, in the conventional automobile, the knock sensor is used as a method of detecting a misfire, and the misfire is corrected only by performing the perception correction of the ignition timing according to the occurrence of the knock. There is an impossible problem, and a means of learning the degree of misfire occurrence and storing it as self-diagnosis data has not been suggested.

An object of the present invention is to mount a pressure detection sensor at a predetermined position of a pipe for exhausting exhaust gas to detect a cylinder in which misfire occurs according to the pressure of the exhaust gas, and then store the self-diagnosis data and The ignition timing correction keeps the engine in a stable state, improving engine performance and providing exhaust gas stability.

In order to achieve the above object, the present invention provides a method for detecting misfire of a vehicle, the method comprising: detecting an engine speed when engine start is maintained; Determining whether the engine speed detected in the process satisfies an engine misfire detection condition; When the misfire detection condition is satisfied in the above process, the engine cycle is calculated from the detected engine speed from the engine speed, and the pressure of the exhaust gas is detected by detecting the pressure of the exhaust gas according to the calculated time of the one cycle. Judging the change; Detecting four waveforms and calculating a periodic mean value of each waveform when the exhaust gas pressure change is detected in the above procedure; Determining whether each waveform of one cycle detected in each waveform average calculated in the above step is included; In the above process, if each waveform is included in the calculated average value, it is determined that the normal combustion state, and if there is a waveform not included, it is determined that misfire has occurred in the corresponding cylinder, and performing misfire correction. It is done.

1 is a block diagram of a misfire detection apparatus of the present invention vehicle

2 is a flowchart of an embodiment for performing misfire detection of the inventive vehicle.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As can be seen in FIG. 1, the misfire detection apparatus according to the present invention includes a pressure detector 10, a filter 20, a controller 30, a rotation speed detector 40, and an ignition device 50. The pressure detector 10 is mounted at a predetermined position of the exhaust manifold to detect the pressure of the exhaust gas and then outputs a signal thereof.

The filter 20 filters the signal output from the pressure detector 10 to remove noise included in the detected signal.

The rotation speed detection unit 40 detects the rotation speed information of the engine that is changed according to the load variation and outputs a signal thereof.

The controller 30 analyzes the engine speed information detected to determine whether the misfire detection condition is satisfied, and analyzes the pressure of the detected exhaust gas to detect the occurrence of misfire of each cylinder and then correct the ignition timing. Control the overall behavior for

The ignition device 50 corrects the ignition timing of the cylinder in which misfire occurs according to the signal applied from the controller 30.

An operation for misfire detection in a vehicle configured as described above will be described with reference to FIG. 2.

When the engine is turned on, the controller 30 detects and analyzes information on the engine speed applied by the engine speed detector 40 (step 101), so that the engine speed is the predetermined speed (that is, the engine noise is the highest). It is determined whether or not the condition of misfire detection that is rotated by more than 5000 rpm) (step 102).

If the engine speed as a condition of the misfire detection is the predetermined speed state, the time of one cycle (four pulses) corresponding to the detected speed is calculated (step 103).

When the time calculation of one cycle (four pulses) corresponding to the rotational speed is set, the pressure information of the exhaust gas of the pressure detector 10 mounted at the predetermined position of the exhaust manifold is detected and analyzed at the calculated cycle of one cycle (step) 104).

Subsequently, the controller 30 determines whether there is a change in pressure in the exhaust gas detected in the cycle of one cycle through the pressure detector 10 (step 105). Waveforms) Each waveform of a period is detected (step 106), and the period average value of each waveform is calculated according to the data for which the detected waveforms are set (step 107).

Thereafter, it is determined whether the waveforms of one cycle (four waveforms) detected by the pressure detector 10 are included in the periodic mean value calculated in the above (step 108), and if it is determined that each waveform is included in the calculated mean value Each cylinder is judged to be in a state of normal combustion in which no misfire occurs (step 109), and if the waveform of each detected one cycle (four waveforms) is not included in the calculated period average value, After determining that misfire has occurred in the cylinder corresponding to the waveform which is not included, the ignition device 50 controls and adjusts the ignition timing after learning from the self-diagnosis data (step 110, step 111).

Therefore, the cylinder in which misfire has occurred performs normal combustion by correcting the ignition timing.

As described above, the present invention detects the occurrence of misfire of each cylinder by the pressure of the exhaust gas, and then stabilizes the exhaust gas by maintaining the engine operation stably by correcting the ignition timing of the cylinder in which the misfire has occurred.

Claims (1)

A misfire detection apparatus for a vehicle, comprising: detecting an engine speed when engine start is maintained; Determining whether the engine speed detected in the process is an engine misfire detection condition; Calculating a time for one cycle of the engine from the detected engine speed when the misfire detection condition is performed; Determining a pressure change for the exhaust gas by detecting the pressure of the exhaust gas according to the time of one cycle calculated in the above process; Detecting four waveforms and calculating a periodic mean value of each waveform when the exhaust gas pressure change is detected in the above procedure; Determining whether each waveform of one cycle detected in each waveform average calculated in the above step is included; In the above process, if each waveform is included in the calculated average value, it is determined as a normal combustion state, and if there is a waveform that is not included, it is determined that misfire has occurred in the corresponding cylinder, and thus, misfire correction is performed. Misfire detection method of a vehicle.

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